DE1137808B - Cathode ray electrostatic writing tubes and processes for their manufacture - Google Patents

Description

GERMAN

PATENT OFFICE

D27985Vnic / 21g

REGISTRATION DATE: 26. A P R I L 1958

NOTICE
THE REGISTRATION
AND EDITION OF THE EDITORIAL: OCTOBER 11, 1962

The invention relates to an electrostatic cathode ray writing tube, the screen of which is insulated from one another and penetrates wire ends that are embedded in order to generate charge images by means of electron beams.

Known cathode ray writing tubes have a beam generation system for generating and focusing of the electron beam, means for deflecting this beam and usually additional electrodes for further acceleration of the electrons. Along the path that the electron beam is under the influence the deflection means on the screen of the tube, are in these writing tubes according to the Number of pixels to be transmitted Wire ends embedded, their inner ends from the electron beam can be taken and their outer ends protrude from the screen or flush with it. To produce a permanent record, a perpendicular to this arrangement is used Movement running from writing wires is a voltage or current sensitive image carrier passed by. It is known to design this image carrier as a metallized film which is at cathode potential is held so that at the points that are in contact with the wires hit by the cathode ray, a track is burned in.

With other writing tubes, a dielectric writing medium is placed between the writing wires of the screen and passed by an outer electrode held at anode potential or a higher potential. The wires hit by the electron beam are charged to cathode potential, and it happens between this electrode and these wires a discharge which leaves a trace on the writing medium, when the wires reach a certain critical potential with respect to the outer electrode to have.

With such writing wires arranged close to one another, the capacities of the wire are closed Wire large, but the capacitance of the wires to the outer electrode becomes small. As a result, when the electron beam hits a certain wire and brings it to cathode potential, the ones next to it Wires and, to a lesser extent, all wires at cathode potential, so that one Reduction in line sharpness can occur during recording.

This charging of the neighboring wires not hit by the electron beam is prevented or reduced to a harmless level if according to the invention for the purpose of shielding between A further wire is arranged in each case for the writing wires and if the additional wires are electrostatic

Cathode ray writing tube

and methods of making them

Applicant:
AB Dick Company, Niles, III. (V. St. A.)

Representative: Dipl.-Ing. KA Brose, patent attorney,
Pullach near Munich, Wiener Str. 2

Claimed priority:
V. St. v. America May 13, 1957 (No. 658 797)

Robert W. Crews and Casper W. Barnes Jr.,

Palo Alto, Calif. (V. St. Α.),
have been named as inventors

trically connected to each other and kept at a fixed potential.

It is true for electronic interrupters, in which a ribbon-shaped electron beam under the Effect of deflection means several arranged inside the tube and at any point in the Tube scanned outwardly leading anodes, known, these anodes mutually through a cage shield that surrounds the anodes on all sides with the exception of an access opening for the electron beam. However, such a measure is not applicable for cathode ray writing tubes, since here the Writing wires must be led through the screen to the outside and also not in the area are allowed to influence each other capacitively by passing them through the screen in a vacuum-tight manner. Furthermore, in order to obtain a good resolution of the generated image, in the case of a cathode ray writing tube a very large number of writing wires must be present, so that for reasons alone the manufacturing difficulties, the use of the known screening cage to solve the present Problem is not possible.

The protruding from the front of the screen ends of the writing wires can between individual Pieces of insulating material, ζ. B. pieces of glass,

209 660/238

be ordered, and there can also be those between the writing wires arranged shielding wires between individual pieces of insulating material, for. B. Pieces of glass to be attached. These writing and shielding wires attached between the pieces of insulating material can be located in a slot-like opening in a metal faceplate.

The writing and shielding wires can be spaced apart and in a curved shape

5 shows a section through the wire arrangement of FIGS. 4 A and 4 B.

tube is a common cathode ray tube with the exception of the screen. She therefore assigns an evacuated person Piston 10 with a cathode 12, a control

In the following description, the invention is explained by way of example with reference to the drawings. In the drawings shows

1 shows a cross section through a cathode ray writing tube with the wire arrangement described,

Fig. 2 is an end view of the screen of the writing tube,

Fig. 3 comprises a section of the wire arrangement according to the first and a second glass rod and un- io Fig. 2,
ter leaving the ends free on one side between FIGS. 4 A and 4 B, another embodiment

the second glass rod and a third glass rod on the wire assembly prior to grinding and clamped with the second and third glass rod facing the outside of the tube
The side is flattened, while the wires are flattened on the other. In FIG. 1, the cross-section of an electrostatic side is shown between the first and second glass writing tubes. The electrostatic writing rods on the one hand and a fourth glass rod on the other hand are clamped. With the alternately successive shielding wires can be printed
Circuit conductors are in connection, which are attached to the bottom electrode 14, an anode or accelerating electrode side of an insulating part and to trode 16, a bundling coil 18 and a deflecting coil 20 connecting the shielding wires to one another. The cathode 12 is connected to the negative conductor, which is connected to the tiven pole of the power source 22. From one a contact on the outside of the tube stands. Signal source 24, signals are sent to the intensity control

In another embodiment, the 25 grids can be fed. Deflection signals are bent into an L-shape of the Ab-writing wires and their legs directed towards the steering coil from a deflection signal source 26 outside of the tube between
two glass rods can be clamped in, the shielding wires arranged between the individual writing wires being U-shaped and a 30
the glass rods include and on one side of the leg
be conductively connected by a metal strip
can.

According to the inventive method for

Manufacture electrostatic cathode-ray writing 35 ends protruding through the outer surface of the tube, which is smooth tubes of the type described is first a first, so that the dielectric writing carrier 34, for example paper, extremely close to the wire tips that are arranged in a row in order to accumulate electrostatic charges to take. A conductor 36 is connected to the anode and extends along the row of wire tips in Distance from it.

In operation, the cathode ray is deflected by the deflection means deflected so that it covers over the parts of the marginal zones running along the edges. 45 stripes wires that are in the tube. If Then around the first glass rod and the me- a wire is energized or not tallstrip a shield wire with the desired determined by the intensity control signals sent by Wrapped slope. Then the signal source 24 received via the meter will be sent to the timing strip located sections of the Abschirmdrah- point in which the electron beam hits him tes is aligned with a second prismatic glass rod. Therefore, when the distraction signals and which is substantially the same width as the intensity control signals from an appropriate range Has surface of the first glass rod, after which to be received sensing device such. B. one the first and second glass rods and the intervening facsimile device or a television camera, and Between lying metal strips a writing wire so when the writing paper 34 with synchronized vertical winds is that it is moved between the exposed Win- 55 right scanning speed, so will fertilizing the shielding wire comes to lie, but this on the writing paper a pattern of charges not touched. Against this arrangement is brought that, if it is subsequently developed, a third glass rod of the same length so tensioned that using known electrostatic de-seizing adjacent surface opposite a narrow winding process a visible image of the original long side of the metal strip comes to rest, creating a copy.

on the sections of the write and shield wires, so far all of the wires 32 in the shield were made by

which are located on the adjacent wires facing away from the third glass rod through the insulating glass side of the first and second glass rod, and are separated in the screen. Since the wires are practically parallel to the sections of the writing wire which are above the allele to each other, the capacitance from wire to second glass rod is wrapped, grinded 6 ₅ wire high and the capacitance from wire to earth until a row of wire tips between the one - ring. Therefore, when the electron beam brushes one of the facing sides of the first and third glass wire and it arises to be charged to the box. method potential brings what is required to become

fed. Via a resistor 28, the required more positive potential of the anode 16 and the Centering coil 18 supplied.

The screen has a metal front plate 30 which Has anode potential. A number of wires 32 are housed in an insulated manner in a slot in the screen. The wires are separated from one another by a material such as. B. Glass, separated and inserted so that a wire

and second insulating or glass rod completely wrapped with wire. Thereupon the expendable Part of the wire turns removed by grinding.

According to another method, a conductive one is placed against a surface of a prismatic first glass rod Metal strips of slightly smaller width are placed, which cover this area with the exception of two narrow,

the wire can discharge, all subsequent wires are charged to a lesser extent to the cathode potential on due to the coupling capacity between them. A shield of all wires in the arrangement of the neighboring wires is made by connecting all alternately successive Wires 32 reached. This is done through the connecting line 38. The connecting line 38 turns off the tube led out to a contact 39. This can either be with the anode or preferably with the resistor 28 are connected to these alternately successive wires on one suitable potential, thereby discharging discharges to the outer anode surface rather than to an adjacent one Shielding wire done. The shielding effect achieved by this arrangement is made possible it is that every wire can be changed electrically by the electron beam without significant Effect on the neighboring wires. This increases the capacitance from wire to wire in the case of the writing wires made low. The existence of the shield wires in the wire assembly results in little wire-to-wire coupling of the writing wires and thereby restricts the discharge to those wires that are directly be charged by the cathode ray. The result is an improvement in the sharpness of the writing.

Figure 2 is a sectional view taken along line 2-2 showing an arrangement of the improved umbrella. She knows a metal plate which sits close to the end of the piston 10 and has a slot in the middle, in which the wires 32 are attached. As shown in section 3-3 in FIG. 3, there is one type of attachment for these wires in that one wire end 33 of the wires 32 (the one that comes out of the tube protrudes) is clamped between two pieces of glass 40, 42. The end of the wire extends to the flat surface 44. The remainder of the wire is wrapped over a glass rod 46, and another segment of glass 48 clamps the other side or end of wire 32 against segment 42 and rod 46. An insulating part 50 has on its underside printed circuit conductors 52, which, as with the dashed lines is shown in Fig. 2, are arranged so far apart that they are the alternating successive Connect wires 32 together. The conductor 38 that connects all of these wires together, is connected to the contact 39 on the outside of the tube 10, from where a connection to the external power source can be established.

4 A and 4 B show the front and side views of the attachment of the writing and shielding wires to achieve the preferred arrangement for the screen, which is shown in section in FIG is. A square bar made of insulating material, such as. B. a glass rod 60 has a conductive metal strip 62 on one side. A shield wire 64 is of the desired pitch around the glass rod 60 and the conductive one Metal strip 62 wound. A second flat rod made of insulating material, which is also a glass rod 66 is brought and held against the windings 64 that are above the conductive metal strip lie to cover these parts of the turns. Over the whole, the writing wire is 68 in desired pitch wound, in such a way that its turns between the turns of the shielding wire lie.

Then the wire is ground off on two sides, as shown with the broken lines is, so that what is shown in Fig. 5 arises. The shield wires are shaped like a U on the side. The writing wires are in the shape of an upside-down L. Against the side of the array where the base of the shielding wire U is, there is another square glass rod with a sealing connection 70 attached. The tips of the writing wires are located between the two glass rods 60 and 70, the flat sides of which serve as a writing surface. The shield wires in the arrangement shown shield the neighboring writing wires and are bent away from the writing tips of the writing wires, to the possibility of discharge to the shield wires in place of the dielectric medium to reduce. The glass rod surfaces at right angles to the writing surfaces are used to to keep the arrangement in the metal faceplate.

Claims (11)

PATENT CLAIMS: 1. Electrostatic cathode ray tube whose screen insulated from each other embedded wire ends protrude for the generation of charge images by electron beams, characterized in that a further wire is arranged for the purpose of shielding between the writing wires and that the additional wires are electrically connected to one another and held at a fixed potential. 2. Electrostatic cathode ray tube according to claim 1, characterized in that the fixed potential has a value between that of the potential of the anode and the cathode. 3. Electrostatic cathode ray tube according to claim 1, characterized in that the ends (33) of the writing wires (32; 68) protruding from the screen (30) between individual ones Pieces of insulating material, e.g. B. glass (40, 42, 46, 48; 60, 66, 70) are arranged. 4. Electrostatic cathode ray tube according to claim 1, characterized in that the shielding wires (32; 64) arranged between the writing wires (32; 68) between individual ones Pieces of insulating material, e.g. B. glass (40 ', 42, 46, 48; 60, 66, 70) are attached. 5. Electrostatic cathode ray tube according to claim 1, characterized in that the writing and shielding wires attached between pieces of insulating material (40, 42, 46, 48; 60, 66, 70) (32, 64, 68) in a slit-shaped opening of the metal screen (30) are arranged. 6. Electrostatic cathode ray tube according to claim 1, characterized in that the writing and shielding wires (32) with mutual spacing and in a curved shape one comprising a first glass rod (46) and a second glass rod (42) and leaving the ends free (33) clamped on one side between the second glass rod (42) and a third glass rod (40) and that the glass rods (40, 42) face the outside of the tube Sides are flattened while the wires (32) on the other side between the first and second glass rods (42, 46) on the one hand and a fourth glass rod (48) on the other hand clamped are (Fig. 3). 7. Electrostatic cathode ray tube according to claim 6, characterized in that on the underside of an insulating part (50) printed circuit conductors (52) are provided which are in contact stand with the alternating shielding wires and on one the Shielding wires interconnecting conductors (38) are connected, in connection with the contact (39) on the outside of the tube (10). 8. Electrostatic cathode ray tube according to claim 1, characterized in that the writing wires (68) are bent into an L-shape and that theirs are directed towards the outside of the tube Legs are clamped between two glass rods (60, 70) (Fig. 5). 9. Electrostatic cathode ray tube according to claim 8, characterized in that U-shaped shielding wires (64) between the individual writing wires (68) one of the glass rods (60) are arranged, the legs lying to one side by a Metal strips (62) are conductively connected. 10. A process for the production of electrostatic cathode ray writing tubes according to one of or several of claims 3 to 7, characterized in that a first and second insulating or Glass rod first completely wrapped with wire and then the dispensable parts of the Wire turns can be removed by grinding. 11. A process for the production of electrostatic cathode ray writing tubes according to one or more several of claims 3 to 5 and 7 to 9, characterized in that against a surface a prismatic first glass rod (60) a conductive metal strip (62) somewhat smaller Width is laid, of this area with the exception of two narrow ones running along the edges Covered edge zones, then around the first glass rod (60) and the metal strip (62) a shielding wire (64) is wrapped with the desired pitch and that over the metal strip (62) located sections of the shielding wire (64) with a second prismatic glass rod (66) which is essentially the same width as the area of the first Glass rod (60), after which the first and second glass rod (60, 66) and the intermediate one Metal strip (62) a writing wire (68) between the exposed turns of the shielding wire (64) and without contact wound with this and against this arrangement a third glass rod (70) of the same length is tensioned that its adjacent surface opposite a narrow longitudinal side of the metal strip (62) comes to rest and then the side of the first facing away from the third glass rod (70) and second glass rod (60, 66) located portions of the wires (64, 68) and over the Second glass rod (66) wound sections of the writing wire (68) are abraded until a Row of wire tips between the facing sides of the first and third glass rod (60,70) arises. Considered publications:
German Patent No. 942758;
German interpretation document N 6766 VIIIc / 21g
made known on September 1, 1955). Legacy Patents Considered:
German Patent No. 1054 468. 1 sheet of drawings © 20Ϊ 660/238 10.62